OCR Correction Tool for Linguistic Corpora

We introduce a new tool for correcting OCR errors of materials in a repository of cultural materials. The poster is aimed to all who are interested in digital humanities and who might find our tool useful. The poster will focus on the OCR correction tool and on the background processes. We have started a project on materials published in Finno-Ugric languages in the Soviet Union in the 1920s and 1930s. The materials are digitised in Russia. As they arrive, we publish them in DSpace (fennougrica.kansalliskirjasto.fi). For research purposes, the results of the OCR must be corrected manually. For this we have built a new tool. Although similar tools exist, we found in-house development necessary in order to serve the researchers' needs. The tool enables exporting the corrected text as required by the researchers. It makes it possible to distribute the correction tasks and their supervision. After a supervisor has approved a text as finalised, the new version of the work will replace the old one in DSpace. The project has - benefitted the small language communities, - opened channels for cooperation in Russia. - increased our capabilities in digital humanities. The OCR correction tool will be available to others.

OCR Correction Tool for Linguistic Corpora

Poster at Open Repositories 2014, Helsinki, Finland, June 9-13, 2014

Along-scan radiometric gradient in Landsat images: understanding the relation between floristic and remote sensing information in tropical forests

The along-scan radiometric gradient causes severe interpretation problems in Landsat images of tropical forests. It creates a decreasing trend in pixel values with the column number of the image. In practical applications it has been corrected assuming the trend to be linear within structurally similar forests. This has improved the relation between floristic and remote sensing information, but just in some cases. I use 3 Landsat images and 105 floristic inventories to test the assumption of linearity, and to examine how the gradient and linear corrections affect the relation between floristic and Landsat data. Results suggest the gradient to be linear in infrared bands. Also, the relation between floristic and Landsat data could be conditioned by the distribution of the sampling sites and the direction in which images are mosaicked. Additionally, there seems to be a conjunction between the radiometric gradient and a natural east-west vegetation gradient common in Western Amazonia. This conjunction might have enhanced artificially correlations between field and remotely-sensed information in previous studies. Linear corrections may remove such artificial enhancement, but along with true and relevant spectral information about floristic patterns, because they can´t separate the radiometric gradient from a natural one.